CN214297254U

CN214297254U - Feeding mechanism of soap solution bottle

Info

Publication number: CN214297254U
Application number: CN202023305030.3U
Authority: CN
Inventors: 王卫宁
Original assignee: Ningbo Chefshere Kitchen Technology Co ltd
Current assignee: Ningbo Chefshere Kitchen Technology Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-09-28
Anticipated expiration: 2030-12-31

Abstract

The utility model relates to a feeding mechanism of soap lye bottle, including the lid that is equipped with a plurality of soap grains and the bottle of being connected with the lid, the bottle includes the opening with the lid intercommunication, the lid includes the vacancy with the opening intercommunication, drive the rotary mechanism in soap grain circumferential motion to the vacancy, connect a lid that is equipped with the soap grain on the bottle, when needing to drop into the soap grain into the bottle in, only need artifical manual rotatory rotary mechanism, rotary mechanism drives the soap grain and is circumferential motion, when the soap grain moves in the vacancy, because vacancy and opening intercommunication, the soap grain that so moves to in the vacancy will drop into in the opening, thereby fall into in the bottle, this kind of feeding mechanism simple structure, do not need the people to pick up the soap grain, use manpower sparingly, the structure is nimble to be intelligent, can not pollute the soap grain, sanitation and hygiene.

Description

Feeding mechanism of soap solution bottle

Technical Field

The utility model belongs to the technical field of the soap lye preparation technique and specifically relates to a feeding mechanism of soap lye bottle is related to.

Background

Along with the continuous development and progress of the society, the quality of people is continuously improved, and the appeal for studying the quality of life is also continuously improved, so that more people can develop better life habits. Especially, daily washing is more important for many people, such as frequent washing.

In daily life, soap grains are usually picked up manually and then put into a soap liquid bottle, the soap grains are mixed with liquid in the bottle to form soap liquid, and the following defects are caused because the soap grains need to be picked up manually: 1. soap particles stick to hands, so that hands need to be washed again for cleaning, which is troublesome and consumes manpower; 2. bacterial impurities on hands stick to the soap particles, the soap particles are polluted, the manufactured soap liquid is polluted at the same time, and the soap liquid cannot achieve the effects of cleaning and disinfection.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to provide a feeding mechanism of soap liquid bottle with simple structure, labor saving and no pollution to soap particles.

The utility model discloses the technical scheme who adopts is, the feeding mechanism of soap lye bottle, including the lid that is equipped with a plurality of soap grain and the bottle of being connected with the lid, the bottle includes the opening with the lid intercommunication, and the lid includes vacancy with the opening intercommunication, drives the rotary mechanism in soap grain circumferential motion to the vacancy.

The utility model has the advantages that: adopt the feeding mechanism of above-mentioned structure, connect a lid that is equipped with the soap grain on the bottle, when needs drop into the bottle with the soap grain in vivo, only need artifical manual rotation rotary mechanism, rotary mechanism drives the soap grain and is circumferential motion, when the soap grain moves in the vacancy, because vacancy and opening intercommunication, the soap grain that so moves to in the vacancy will drop into in the opening, thereby fall into in the bottle, this kind of feeding mechanism simple structure, do not need the people to pick up the soap grain, the manpower is saved, the structure is nimble quick-witted intelligent, can not pollute the soap grain, sanitation and hygiene.

Preferably, the cover body also comprises a box body, the box body comprises a platform for placing soap grains and a fence, the rotating mechanism comprises a rotating wheel which surrounds the fence and is movably connected with the fence, a plurality of separating blocks which are positioned in the fence and are distributed and arranged in the circumferential direction, and soap grain positions which are positioned between the separating blocks and are used for placing soap grains, the separating blocks are integrally connected with the rotating wheel, and the separating blocks are movably connected with the upper surface of the platform, by adopting the structure, a plurality of soap grains are placed on each soap grain position, when the rotating wheel is rotated, the rotating wheel drives the separating blocks to do circumferential motion relative to the platform, so that the soap grains between the separating blocks are driven to do circumferential motion on the platform, when the soap grains move into the vacancy, as the vacancy is communicated with the opening, the soap grains moving into the vacancy can fall into the opening, and then fall into the bottle body, the feeding mechanism has a simple structure, the soap particles are not required to be picked up manually, the labor is saved, the structure is flexible and intelligent, the soap particles are not polluted, and the soap box is clean and sanitary.

Preferably, the platform includes a through hole disposed on the platform, the through hole being located directly above the opening and directly below the void. Adopt this structure, set up a through-hole on the platform, this through-hole communicates with the vacancy of its top and the opening of below, and when the soap grain moved in the vacancy, the soap grain will fall into in the opening from through-hole department, finally falls into in the bottle, and this kind of feeding mechanism simple structure does not need the manual soap grain of picking up, uses manpower sparingly, and the structure is nimble quick-witted intelligent, can not pollute the soap grain, sanitation and hygiene.

As priority, the lid is including can promoting the soap grain in the vacancy to fall into the intraoral driving piece, the driving piece is located the vacancy directly over and stretches into the vacancy, rotary mechanism still includes the shelves mouth of offering on every spacer block and supplying the driving piece to pass, adopt this structure, when rotatory swiveling wheel, the spacer block drives the soap grain and makes circumferential motion, the relative spacer block of driving piece is relative circumferential motion along its opposite direction, when one of them soap grain step by step enters the vacancy, the driving piece can give a decurrent extrusion force to this soap grain, continue to rotate the swiveling wheel again, the driving piece just can be with the soap grain extrusion fall into in the opening again and fall into the bottle body, this kind of feeding mechanism simple structure, do not need the people to pick up the soap grain, manpower saving, the structure is nimble and intelligent, can not pollute the soap grain, sanitation and hygiene.

As preferred, the platform is including being located the disk in the through-hole and seting up the cross space on the disk, the cross space is located the open-ended directly over, the disk adopts the silica gel structure, adopts this structure, and the in-process of driving piece extrusion soapstock, soapstock will extrude the disk downwards, because the disk is the silica gel material, and seted up the cross space on the disk, so the soapstock will oppress the cross space when receiving decurrent extrusion force to open from the position with cross hole place, finally fall into in the opening of bottle, then fall into in the bottle. The feeding mechanism is simple in structure, soap grains on the platform can be prevented from being damped by arranging the wafer, and water vapor evaporated by soap liquid in the bottle body is prevented from entering the cover body.

As preferentially, the driving piece includes that one can be used in inclined plane and a chamfer on the soap grain, adopts this structure, and when artifical manual rotatory swiveling wheel, the relative motion can be done to the driving piece, when one of them soap grain step by step enters into the vacancy, the inclined plane on the driving piece can directly give a decurrent extrusion force of this soap grain, continues rotatory swiveling wheel again, finally falls into in the bottle with the smooth extrusion of soap grain through the chamfer effect on the soap grain. The feeding mechanism has simple structure, does not need to pick up soap particles manually, saves manpower, has flexible and intelligent structure, does not pollute the soap particles, and is clean and sanitary.

As the priority, the lid still includes can the lid that closes in the swiveling wheel top, and the driving piece is located the lower surface of upper cover, adopts this structure, puts into rotary mechanism's swiveling wheel with the soap grain, covers the upper cover, can guarantee that the soap grain is in a stable space.

As the priority, the bottle includes a connecting pipe that sets up on the perpendicular axis of bottle, and rotary mechanism includes a first passageway that supplies the connecting pipe to pass, and the upper cover includes a second passageway that supplies the connecting pipe to pass, adopts this structure, can link together upper cover, rotary mechanism and bottle, and simple structure does not need the manual soap grain of picking up, uses manpower sparingly, and the structure is nimble quick-witted intelligent, can not pollute the soap grain, sanitation and hygiene.

Drawings

Fig. 1 is an exploded view of the feeding mechanism of the soap bottle of the present invention;

fig. 2 is a schematic structural diagram of a feeding mechanism of the soap bottle of the present invention;

fig. 3 is a schematic structural view of a rotating mechanism in a feeding mechanism of the soap bottle of the present invention;

fig. 4 is a schematic structural diagram of a cartridge in embodiment 1 of the present invention;

fig. 5 is a schematic structural view of an upper cover in the feeding mechanism of the soap liquid bottle of the present invention;

fig. 6 is a schematic structural view of a cartridge in embodiment 2 of the present invention;

fig. 7 is a schematic structural view of a feeding mechanism of the soap bottle of the present invention;

fig. 8 is an exploded view of the feeding mechanism of the soap bottle of the present invention;

as shown in the figure: 1. soap particles; 2. a cover body; 3. a bottle body; 4. an opening; 5. a vacancy; 6. a rotation mechanism; 7. a drive member; 8. A box body; 9. a platform; 10. a fence; 11. a rotating wheel; 12. a separation block; 13. soap grain sites; 14. a blocking opening; 15. a through hole; 16. a wafer; 17. a cross void; 18. an inclined surface; 19. chamfering; 20. an upper cover; 21. a connecting pipe; 22. a first channel; 23. a second channel.

Detailed Description

The invention is further described below with reference to the accompanying drawings in combination with the embodiments so that those skilled in the art can implement the invention with reference to the description, and the scope of the invention is not limited to the embodiments.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, the above terms should not be construed as limiting the present invention.

Example 1:

the utility model relates to a feeding mechanism of soap lye bottle, as shown in fig. 1 and fig. 2, including the lid 2 that is equipped with a plurality of soap grain 1 and the bottle 3 of being connected with lid 2, bottle 3 includes an opening 4 with lid 2 intercommunication, lid 2 includes that one is located opening 4 top and vacancy 5 with opening 4 intercommunication, drive 1 circumferential motion of soap grain to the rotary mechanism 6 in the vacancy 5 and can extrude soap grain 1 and fall into driving piece 7 in the opening 4, driving piece 7 is located vacancy 5 top and stretches into in the vacancy 5. In fig. 1, adopt the feeding mechanism of above-mentioned structure, connect a lid 2 that is equipped with soap grain 1 on bottle 3, when needs drop into bottle 3 with soap grain 1 in, only need artifical manual rotatory rotary mechanism 6, rotary mechanism 6 drives soap grain 1 and is circumferential motion, wherein soap grain 1 moves the in-process in the vacancy 5, can be extruded by driving piece 7 of vacancy 5 tops, soap grain 1 falls into bottle 3 through extrusion through opening 4 downwards, this kind of feeding mechanism simple structure, do not need the people to pick up soap grain 1, use manpower sparingly, the structure is nimble quick-witted intelligent, can not pollute soap grain 1, sanitation and hygiene.

As shown in fig. 4, 7 and 8, the box 8 includes a platform 9 for placing the soap grains 1 and a fence 10, as shown in fig. 3, the rotating mechanism 6 includes a rotating wheel 11 surrounding the fence 10 and movably connected to the fence 10, a plurality of separating blocks 12 located in the fence 10 and arranged in a circumferential distribution, soap grains 1 located between the separating blocks 12 for placing the soap grains 1, and a blocking opening 14 provided on each separating block 12 for passing the driving member 7, the plurality of separating blocks 12 are integrally connected to the rotating wheel 11, the plurality of separating blocks 12 are movably connected to the upper surface of the platform 9, with this structure, a plurality of soap grains 1 are placed on each soap grain 1, when the rotating wheel 11 is rotated, the rotating wheel 11 drives the separating blocks 12 to move circumferentially relative to the platform 9, so as to drive the soap grains 1 between the separating blocks 12 to move circumferentially on the platform 9, the driving member 7 moves circumferentially relative to the separating blocks 12 in opposite directions, when one of them grain soap 1 entered into vacancy 5 step by step, driving piece 7 can give this grain soap 1 a decurrent extrusion force, continues rotatory swiveling wheel 11 again, and driving piece 7 just can fall into bottle 3 in the opening 4 with the extrusion of grain soap 1 again, and this kind of feeding mechanism simple structure need not artificially to pick up grain soap 1, uses manpower sparingly, and the structure is nimble quick-witted intelligent, can not pollute grain soap 1, sanitation and hygiene.

As shown in fig. 4, platform 9 is including setting up through-hole 15 on platform 9, being located through-hole 15 and disc 16 and the cross space 17 of seting up on disc 16 with platform 9 body coupling, cross space 17 is located opening 4 directly over, disc 16 adopts the silica gel structure, adopts this structure, and the in-process of driving piece 7 extrusion soap grain 1, soap grain 1 will extrude disc 16 downwards, because disc 16 is the silica gel material, and has seted up cross space 17 on the disc 16, then soap grain 1 will oppress cross space 17 when receiving decurrent extrusion force, thereby from opening cross hole position, finally fall into the opening 4 of bottle 3 in, then fall into in the bottle 3. The feeding mechanism is simple in structure, soap grains on the platform can be prevented from being damped by the arranged wafer 16, and water vapor evaporated from soap liquid in the bottle body is prevented from entering the cover body. In addition, the structure does not need to pick up the soap particles 1 manually, thereby saving manpower, having flexible and intelligent structure, not polluting the soap particles 1, and being clean and sanitary.

As shown in fig. 5, the driving member 7 includes an inclined surface 18 and a chamfer 19, which can act on the soap grains 1, and with this structure, when the rotating wheel 11 is manually rotated, the driving member 7 will make relative movement, and when one of the soap grains 1 enters the empty position 5 step by step, the inclined surface 18 on the driving member 7 will directly give a downward pressing force to the soap grain 1, and then the rotating wheel 11 will continue to rotate, and finally the chamfer 19 acts on the soap grain 1 to smoothly press the soap grain 1 into the bottle body 3. The feeding mechanism has simple structure, does not need to manually pick up the soap particles 1, saves manpower, has flexible and intelligent structure, does not pollute the soap particles 1, and is clean and sanitary.

As shown in fig. 5, the cover body 2 further includes an upper cover 20 capable of covering the upper part of the rotating wheel 11, the driving member 7 is located on the lower surface of the upper cover 20, and by adopting the structure, the soap grain 1 is put into the rotating wheel 11 of the rotating mechanism 6, and the upper cover 20 is covered, so that the soap grain 1 can be ensured to be in a stable space.

As shown in figure 1, the bottle body 3 comprises a connecting pipe 21 arranged on the vertical middle axis of the bottle body 3, the rotating mechanism 6 comprises a first channel 22 for the connecting pipe 21 to pass through, the upper cover 20 comprises a second channel for the connecting pipe 21 to pass through, by adopting the structure, the upper cover 20, the rotating mechanism 6 and the bottle body 3 can be connected together, the structure is simple, the soap particles 1 do not need to be picked up manually, the labor is saved, the structure is flexible and intelligent, the soap particles 1 cannot be polluted, and the soap bottle is clean and sanitary.

Example 2:

the utility model relates to a feeding mechanism of soap lye bottle, as shown in fig. 1 and fig. 2, including the lid 2 that is equipped with a plurality of soap grain 1 and the bottle 3 of being connected with lid 2, bottle 3 includes the opening 4 with lid 2 intercommunication, and lid 2 includes vacancy 5 with opening 4 intercommunication, drives rotary mechanism 6 in 1 circumferential motion to vacancy 5 of soap grain. Adopt the feeding mechanism of above-mentioned structure, connect a lid 2 that is equipped with soap grain 1 on bottle 3, when needs drop into bottle 3 with soap grain 1 in, only need artifical manual rotatory rotary mechanism 6, rotary mechanism 6 drives soap grain 1 and is circumferential motion, when soap grain 1 moves in vacancy 5, because vacancy 5 and opening 4 intercommunication, soap grain 1 that so moves in the vacancy 5 will drop into opening 4 in, thereby fall into bottle 3 in, this kind of feeding mechanism simple structure, do not need the people to pick up soap grain 1, use manpower sparingly, the structure is nimble quick-witted intelligent, can not pollute soap grain 1, sanitation and hygiene.

As shown in fig. 6, the cover 2 further comprises a box 8, the box 8 comprises a platform 9 for placing the soap particles 1 and a rail 10, as shown in fig. 3,

the rotating mechanism 6 comprises a rotating wheel 11 which surrounds the periphery of the fence 10 and is movably connected with the fence 10, a plurality of separating blocks 12 which are positioned in the fence 10 and are distributed and arranged in the circumferential direction, and soap grain 1 positions which are positioned between the separating blocks 12 and are used for placing soap grains 1, the plurality of separating blocks 12 are integrally connected with the rotating wheel 11, the plurality of separating blocks 12 are all movably connected with the upper surface of the platform 9, by adopting the structure, a plurality of soap grains 1 are placed on each soap grain 1 position, when the rotating wheel 11 is rotated, the rotating wheel 11 drives the separating blocks 12 to do circumferential motion relative to the platform 9, so that the soap grains 1 between the separating blocks 12 are driven to do circumferential motion on the platform 9, when the soap grains 1 move into the vacant positions 5, as the vacant positions 5 are communicated with the openings 4, the soap grains 1 which move into the vacant positions 5 can fall into the openings 4, so as to fall into the bottle bodies 3, and the feeding mechanism has simple structure, the soap particles 1 do not need to be picked up manually, the labor is saved, the structure is flexible and intelligent, the soap particles 1 cannot be polluted, and the soap is clean and sanitary.

As shown in fig. 6, the platform 9 includes a through hole 15 provided on the platform 9, and the through hole 15 is located directly above the opening 4 and directly below the vacant position 5. Adopt this structure, set up a through-hole 15 on platform 9, this through-hole 15 communicates with vacancy 5 and the opening 4 of below of its top, when soap grain 1 moved in vacancy 5, in soap grain 1 will fall into opening 4 from through-hole 15, finally falls into bottle 3, this kind of feeding mechanism simple structure does not need the people to pick up soap grain 1, uses manpower sparingly, and the structure is nimble quick-witted wisdom, can not pollute soap grain 1, sanitation and hygiene.

As shown in fig. 1, the cover body 2 includes a driving member 7 capable of pushing the soap particles 1 in the empty space 5 to fall into the opening 4, the driving member 7 is located right above the empty space 5 and extends into the empty space 5, the rotating mechanism 6 further includes a stopper 14 provided on each of the partitions 12 for the driving member 7 to pass through, by adopting the structure, when the rotating wheel 11 is rotated, the partitions 12 drive the soap particles 1 to move circumferentially, the driving member 7 moves circumferentially relative to the partitions 12 in opposite directions, when one of the soap particles 1 enters the empty space 5 step by step, the driving member 77 gives a downward extrusion force to the soap particle 1, and then the rotating wheel 11 is rotated continuously, the driving member 7 can extrude the soap particles 1 into the opening 4 and then fall into the bottle body 3, the feeding mechanism has a simple structure, does not need to pick up the soap particles 1 manually, saves manpower, has a flexible and smart structure, and does not pollute the soap particles 1, clean and sanitary.

As shown in figure 1, the bottle body 3 comprises a connecting pipe 21 arranged on the vertical middle axis of the bottle body 3, the rotating mechanism 6 comprises a first channel 22 for the connecting pipe 21 to pass through, the upper cover 20 comprises a second channel 23 for the connecting pipe 21 to pass through, by adopting the structure, the upper cover 20, the rotating mechanism 6 and the bottle body 3 can be connected together, the structure is simple, the soap particles 1 do not need to be picked up manually, the labor is saved, the structure is flexible and intelligent, the soap particles 1 cannot be polluted, and the soap bottle is clean and sanitary.

Claims

1. The feeding mechanism of the soap liquid bottle is characterized in that: including lid (2) that are equipped with a plurality of soap grain (1) and bottle (3) of being connected with lid (2), bottle (3) include opening (4) with lid (2) intercommunication, lid (2) including with vacancy (5) of opening (4) intercommunication, drive rotary mechanism (6) in soap grain (1) circumferential motion to the vacancy.

2. The soap bottle feeding mechanism of claim 1, wherein: the cover body (2) further comprises a box body (8), the box body (8) comprises a platform (9) for placing the soap particles (1) and a fence (10), and the rotating mechanism (6) comprises rotating wheels (11) which surround the fence (10) and are movably connected with the fence (10), a plurality of separating blocks (12) which are located in the fence (10) and are distributed and arranged in the circumferential direction and soap particle positions (13) which are located between the separating blocks (12) and are used for placing the soap particles (1).

3. The soap bottle feeding mechanism of claim 2, wherein: platform (9) are including setting up through-hole (15) on platform (9), and through-hole (15) are located opening (4) directly over, and are located vacancy (5) directly below.

4. The soap bottle feeding mechanism of claim 2 or claim 3, wherein: the cover body (2) comprises a driving piece (7) capable of pushing soap particles (1) in the vacancy to fall into the opening (4), the driving piece (7) is located right above the vacancy (5) and extends into the vacancy (5), and the rotating mechanism (6) further comprises a blocking opening (14) which is formed in each separating block (12) and through which the driving piece (7) penetrates.

5. The soap bottle feeding mechanism of claim 4, wherein: the platform is still including being located disk (16) in through-hole (15) and seting up cross space (17) on disk (16), cross space (17) are located opening (4) directly over, disk (16) adopt the silica gel structure.

6. The soap bottle feeding mechanism of claim 4, wherein: the drive member (7) includes an inclined surface (18) which acts on the soap particle (1).

7. The soap bottle feeding mechanism of claim 6, wherein: the drive member (7) further comprises a chamfer (19).

8. The soap bottle feeding mechanism of claim 2, wherein: the cover body (2) further comprises an upper cover (20) capable of covering the upper part of the rotating wheel (11), and the driving piece (7) is positioned on the lower surface of the upper cover (20).

9. The soap bottle feeding mechanism of claim 8, wherein: the bottle body (3) comprises a connecting pipe (21) arranged on the vertical central axis of the bottle body (3), the rotating mechanism (6) comprises a first channel (22) for the connecting pipe (21) to pass through, and the upper cover (20) comprises a second channel (23) for the connecting pipe (21) to pass through.